Artificial Bee Colony assisted Spectrum Sharing Scheme for NOMA based Cognitive Radio Networks

2020 4th International Conference on Electronics, Communication and Aerospace Technology (ICECA) Pub Date : 2020-11-05 DOI:10.1109/ICECA49313.2020.9297496

K. Sultan

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Abstract

In this paper, a cooperative spectrum sharing scheme is proposed for NOMA based cognitive radio networks comprising of primary and secondary networks. The primary network consists of a primary transmitter PT communicating with a primary receiver PU, whereas the secondary network consists of a NOMA based secondary transmitter ST communicating with L secondary users SUs. The primary terminals are separated far apart therefore ST provides assistance as a relay in order to enable their end-to-end communication. Each terminal is equipped with a single antenna therefore end-to-end communication is accomplished in two time-slots. In first timeslot, PT transmits its signal to ST and at the same time one best SU retransmits the primary signal of the last frame to PU. In second time-slot, ST transmits the superimposed signals of primary and secondary networks. In this scenario, sum rate of SUs is maximized while ensuring to guarantee the QoS of PU. Artificial Bee Colony (ABC) global optimization algorithm is employed to solve this transmit power allocation problem which quickly converged to the best solution.

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基于NOMA认知无线网络的人工蜂群辅助频谱共享方案

本文提出了一种基于NOMA的由主从网组成的认知无线网络的协同频谱共享方案。主网络由一个与主接收器PU通信的主发射机PT组成，而辅助网络由一个基于NOMA的辅助发射机ST与L个辅助用户su通信组成。主终端相距很远，因此ST作为中继提供帮助，以实现端到端通信。每个终端配备一个天线，因此端到端通信在两个时隙中完成。在第一个时隙中，PT将其信号发送给ST，同时一个最佳SU将最后一帧的主信号重传给PU。在第二个时隙中，ST传输主网和辅网的叠加信号。在保证PU的QoS的同时，最大限度地提高了su的和速率。采用人工蜂群(Artificial Bee Colony, ABC)全局优化算法求解该发射功率分配问题，该算法快速收敛到最优解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 4th International Conference on Electronics, Communication and Aerospace Technology (ICECA)

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